pbes2.cpp

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/*
* PKCS #5 PBES2
* (C) 1999-2008,2014,2021 Jack Lloyd
* (C) 2018 Ribose Inc
*
* Botan is released under the Simplified BSD License (see license.txt)
*/
 
#include <botan/internal/pbes2.h>
#include <botan/cipher_mode.h>
#include <botan/pwdhash.h>
#include <botan/der_enc.h>
#include <botan/ber_dec.h>
#include <botan/internal/parsing.h>
#include <botan/internal/fmt.h>
#include <botan/asn1_obj.h>
#include <botan/rng.h>
 
namespace Botan {
 
namespace {
 
bool known_pbes_cipher_mode(std::string_view mode)
   {
   return (mode == "CBC" || mode == "GCM" || mode == "SIV");
   }
 
secure_vector<uint8_t> derive_key(std::string_view passphrase,
                                  const AlgorithmIdentifier& kdf_algo,
                                  size_t default_key_size)
   {
   if(kdf_algo.oid() == OID::from_string("PKCS5.PBKDF2"))
      {
      secure_vector<uint8_t> salt;
      size_t iterations = 0, key_length = 0;
 
      AlgorithmIdentifier prf_algo;
      BER_Decoder(kdf_algo.parameters())
         .start_sequence()
         .decode(salt, ASN1_Type::OctetString)
         .decode(iterations)
         .decode_optional(key_length, ASN1_Type::Integer, ASN1_Class::Universal)
         .decode_optional(prf_algo, ASN1_Type::Sequence, ASN1_Class::Constructed,
                          AlgorithmIdentifier("HMAC(SHA-1)",
                                              AlgorithmIdentifier::USE_NULL_PARAM))
         .end_cons();
 
      if(salt.size() < 8)
         throw Decoding_Error("PBE-PKCS5 v2.0: Encoded salt is too small");
 
      if(key_length == 0)
         key_length = default_key_size;
 
      const std::string prf = prf_algo.oid().human_name_or_empty();
      if(prf.empty() || !prf.starts_with("HMAC"))
         {
         throw Decoding_Error(fmt("Unknown PBES2 PRF {}", prf_algo.oid()));
         }
 
      auto pbkdf_fam = PasswordHashFamily::create_or_throw(fmt("PBKDF2({})", prf));
      auto pbkdf = pbkdf_fam->from_params(iterations);
 
      secure_vector<uint8_t> derived_key(key_length);
      pbkdf->hash(derived_key, passphrase, salt);
      return derived_key;
      }
   else if(kdf_algo.oid() == OID::from_string("Scrypt"))
      {
      secure_vector<uint8_t> salt;
      size_t N = 0, r = 0, p = 0;
      size_t key_length = 0;
 
      AlgorithmIdentifier prf_algo;
      BER_Decoder(kdf_algo.parameters())
         .start_sequence()
         .decode(salt, ASN1_Type::OctetString)
         .decode(N)
         .decode(r)
         .decode(p)
         .decode_optional(key_length, ASN1_Type::Integer, ASN1_Class::Universal)
         .end_cons();
 
      if(key_length == 0)
         key_length = default_key_size;
 
      secure_vector<uint8_t> derived_key(key_length);
 
      auto pwdhash_fam = PasswordHashFamily::create_or_throw("Scrypt");
      auto pwdhash = pwdhash_fam->from_params(N, r, p);
      pwdhash->hash(derived_key, passphrase, salt);
 
      return derived_key;
      }
   else
      {
      throw Decoding_Error(fmt("PBE-PKCS5 v2.0: Unknown KDF algorithm {}", kdf_algo.oid()));
      }
   }
 
secure_vector<uint8_t> derive_key(std::string_view passphrase,
                                  std::string_view digest,
                                  RandomNumberGenerator& rng,
                                  size_t* msec_in_iterations_out,
                                  size_t iterations_if_msec_null,
                                  size_t key_length,
                                  AlgorithmIdentifier& kdf_algo)
   {
   const secure_vector<uint8_t> salt = rng.random_vec(12);
 
   if(digest == "Scrypt")
      {
      auto pwhash_fam = PasswordHashFamily::create_or_throw("Scrypt");
 
      std::unique_ptr<PasswordHash> pwhash;
 
      if(msec_in_iterations_out)
         {
         const std::chrono::milliseconds msec(*msec_in_iterations_out);
         pwhash = pwhash_fam->tune(key_length, msec);
         }
      else
         {
         pwhash = pwhash_fam->from_iterations(iterations_if_msec_null);
         }
 
      secure_vector<uint8_t> key(key_length);
      pwhash->hash(key, passphrase, salt);
 
      const size_t N = pwhash->memory_param();
      const size_t r = pwhash->iterations();
      const size_t p = pwhash->parallelism();
 
      if(msec_in_iterations_out)
         *msec_in_iterations_out = 0;
 
      std::vector<uint8_t> scrypt_params;
      DER_Encoder(scrypt_params)
         .start_sequence()
            .encode(salt, ASN1_Type::OctetString)
            .encode(N)
            .encode(r)
            .encode(p)
            .encode(key_length)
         .end_cons();
 
      kdf_algo = AlgorithmIdentifier(OID::from_string("Scrypt"), scrypt_params);
      return key;
      }
   else
      {
      const std::string prf = fmt("HMAC({})", digest);
      const std::string pbkdf_name = fmt("PBKDF2({})", prf);
 
      auto pwhash_fam = PasswordHashFamily::create(pbkdf_name);
      if(!pwhash_fam)
         {
         throw Invalid_Argument(fmt("Unknown password hash digest {}", digest));
         }
 
      std::unique_ptr<PasswordHash> pwhash;
 
      if(msec_in_iterations_out)
         {
         const std::chrono::milliseconds msec(*msec_in_iterations_out);
         pwhash = pwhash_fam->tune(key_length, msec);
         }
      else
         {
         pwhash = pwhash_fam->from_iterations(iterations_if_msec_null);
         }
 
      secure_vector<uint8_t> key(key_length);
      pwhash->hash(key, passphrase, salt);
 
      std::vector<uint8_t> pbkdf2_params;
 
      const size_t iterations = pwhash->iterations();
 
      if(msec_in_iterations_out)
         *msec_in_iterations_out = iterations;
 
      DER_Encoder(pbkdf2_params)
         .start_sequence()
            .encode(salt, ASN1_Type::OctetString)
            .encode(iterations)
            .encode(key_length)
            .encode_if(prf != "HMAC(SHA-1)",
                       AlgorithmIdentifier(prf, AlgorithmIdentifier::USE_NULL_PARAM))
         .end_cons();
 
      kdf_algo = AlgorithmIdentifier("PKCS5.PBKDF2", pbkdf2_params);
      return key;
      }
   }
 
/*
* PKCS#5 v2.0 PBE Encryption
*/
std::pair<AlgorithmIdentifier, std::vector<uint8_t>>
pbes2_encrypt_shared(std::span<const uint8_t> key_bits,
                     std::string_view passphrase,
                     size_t* msec_in_iterations_out,
                     size_t iterations_if_msec_null,
                     std::string_view cipher,
                     std::string_view prf,
                     RandomNumberGenerator& rng)
   {
   auto enc = Cipher_Mode::create(cipher, Cipher_Dir::Encryption);
 
   const auto cipher_spec = split_on(cipher, '/');
 
   if(cipher_spec.size() != 2 || !known_pbes_cipher_mode(cipher_spec[1]) || !enc)
      {
      throw Encoding_Error(fmt("PBE-PKCS5 v2.0: Invalid or unavailable cipher '{}'", cipher));
      }
 
   const size_t key_length = enc->key_spec().maximum_keylength();
 
   const secure_vector<uint8_t> iv = rng.random_vec(enc->default_nonce_length());
 
   AlgorithmIdentifier kdf_algo;
 
   const secure_vector<uint8_t> derived_key =
      derive_key(passphrase, prf, rng,
                 msec_in_iterations_out, iterations_if_msec_null,
                 key_length, kdf_algo);
 
   enc->set_key(derived_key);
   enc->start(iv);
   secure_vector<uint8_t> ctext(key_bits.begin(), key_bits.end());
   enc->finish(ctext);
 
   std::vector<uint8_t> encoded_iv;
   DER_Encoder(encoded_iv).encode(iv, ASN1_Type::OctetString);
 
   std::vector<uint8_t> pbes2_params;
   DER_Encoder(pbes2_params)
      .start_sequence()
      .encode(kdf_algo)
      .encode(AlgorithmIdentifier(cipher, encoded_iv))
      .end_cons();
 
   AlgorithmIdentifier id(OID::from_string("PBE-PKCS5v20"), pbes2_params);
 
   return std::make_pair(id, unlock(ctext));
   }
 
}
 
std::pair<AlgorithmIdentifier, std::vector<uint8_t>>
pbes2_encrypt(std::span<const uint8_t> key_bits,
              std::string_view passphrase,
              std::chrono::milliseconds msec,
              std::string_view cipher,
              std::string_view digest,
              RandomNumberGenerator& rng)
   {
   size_t msec_in_iterations_out = static_cast<size_t>(msec.count());
   return pbes2_encrypt_shared(key_bits, passphrase, &msec_in_iterations_out, 0, cipher, digest, rng);
   // return value msec_in_iterations_out discarded
   }
 
std::pair<AlgorithmIdentifier, std::vector<uint8_t>>
pbes2_encrypt_msec(std::span<const uint8_t> key_bits,
                   std::string_view passphrase,
                   std::chrono::milliseconds msec,
                   size_t* out_iterations_if_nonnull,
                   std::string_view cipher,
                   std::string_view digest,
                   RandomNumberGenerator& rng)
   {
   size_t msec_in_iterations_out = static_cast<size_t>(msec.count());
 
   auto ret = pbes2_encrypt_shared(key_bits, passphrase, &msec_in_iterations_out, 0, cipher, digest, rng);
 
   if(out_iterations_if_nonnull)
      *out_iterations_if_nonnull = msec_in_iterations_out;
 
   return ret;
   }
 
std::pair<AlgorithmIdentifier, std::vector<uint8_t>>
pbes2_encrypt_iter(std::span<const uint8_t> key_bits,
                   std::string_view passphrase,
                   size_t pbkdf_iter,
                   std::string_view cipher,
                   std::string_view digest,
                   RandomNumberGenerator& rng)
   {
   return pbes2_encrypt_shared(key_bits, passphrase, nullptr, pbkdf_iter, cipher, digest, rng);
   }
 
secure_vector<uint8_t>
pbes2_decrypt(std::span<const uint8_t> key_bits,
              std::string_view passphrase,
              const std::vector<uint8_t>& params)
   {
   AlgorithmIdentifier kdf_algo, enc_algo;
 
   BER_Decoder(params)
      .start_sequence()
         .decode(kdf_algo)
         .decode(enc_algo)
      .end_cons();
 
   const std::string cipher = enc_algo.oid().human_name_or_empty();
   const auto cipher_spec = split_on(cipher, '/');
   if(cipher_spec.size() != 2 || !known_pbes_cipher_mode(cipher_spec[1]))
      {
      throw Decoding_Error(fmt("PBE-PKCS5 v2.0: Unknown/invalid cipher OID {}", enc_algo.oid()));
      }
 
   secure_vector<uint8_t> iv;
   BER_Decoder(enc_algo.parameters()).decode(iv, ASN1_Type::OctetString).verify_end();
 
   auto dec = Cipher_Mode::create(cipher, Cipher_Dir::Decryption);
   if(!dec)
      {
      throw Decoding_Error(fmt("PBE-PKCS5 cannot decrypt no cipher '{}'", cipher));
      }
 
   dec->set_key(derive_key(passphrase, kdf_algo, dec->key_spec().maximum_keylength()));
 
   dec->start(iv);
 
   secure_vector<uint8_t> buf(key_bits.begin(), key_bits.end());
   dec->finish(buf);
 
   return buf;
   }
 
}